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Lasers that designate 9mW of output power can have either CW (continuous wave) or pulsed output. CW Lasers are always defined in average output power. Pulsed Lasers with an output power defined in Watts or Milliwatts usually define the laser’s average power, not the peak power of the laser.
Picture | Part Number | Type | Wavelength (nm) | Output power (W) | Mode | Output | Linewidth | Duty | Package |
---|---|---|---|---|---|---|---|---|---|
REP1260-1300 | LD Module, Single Emitter, Distributed Feedback (DFB) Lasers | 1260-1300 | 0.009, 0.012, 0.020, 0.022 | Single-Mode Lasers | Free Space, SM Fiber, PM Fiber | Narrow | CW | 5.6mm, TO-39, Butterfly FC | |
RWLP-1650S | Single Emitter, Distributed Feedback (DFB) Lasers | 1650 | 0.002, 0.005, 0.009 | Single-Mode Lasers | SM Fiber, PM Fiber | CW | Coaxial, 8-pin HHL |
The REP series includes tunable single-frequency (DFB-like) diode lasers and Fabry-Perot laser diodes in wavelengths from 1270nm thru 2350nm for communications, sensing and measurement applications.
The REP Series is specifically engineered for applications such as gas sensing, LIDAR, metrology, and optical communications. Multiple packaging options are available including the Fiber coupled 14-pin butterfly, TO39 (w/TEC), and TO56.
For a complete module incorporating the fiber coupled butterfly package with an integrated current driver and TEC controller, designed for ease of operation, it is the ideal platform for high stability gas detection or remote sensing. See the DX1 Series.
The RWLP series of fiber coupled laser diodes are variable in both multimode and single mode configurations, with wavelengths from 405nm thru the IR. The highly reliable RWLP series is suitable for a variety of applications such as biological and analytical instrumentation.